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<div class="titlepage"><div><div><h3 class="title">
<a name="math_toolkit.bessel.bessel_over"></a><a class="link" href="bessel_over.html" title="Bessel Function Overview">Bessel Function Overview</a>
</h3></div></div></div>
<h5>
<a name="math_toolkit.bessel.bessel_over.h0"></a>
        <span class="phrase"><a name="math_toolkit.bessel.bessel_over.ordinary_bessel_functions"></a></span><a class="link" href="bessel_over.html#math_toolkit.bessel.bessel_over.ordinary_bessel_functions">Ordinary
        Bessel Functions</a>
      </h5>
<p>
        Bessel Functions are solutions to Bessel's ordinary differential equation:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel1.svg"></span>
      </p>
<p>
        where &#957; &#160; is the <span class="emphasis"><em>order</em></span> of the equation, and may be an arbitrary
        real or complex number, although integer orders are the most common occurrence.
      </p>
<p>
        This library supports either integer or real orders.
      </p>
<p>
        Since this is a second order differential equation, there must be two linearly
        independent solutions, the first of these is denoted J<sub>v</sub> &#160;
and known as a Bessel
        function of the first kind:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel2.svg"></span>
      </p>
<p>
        This function is implemented in this library as <a class="link" href="bessel_first.html" title="Bessel Functions of the First and Second Kinds">cyl_bessel_j</a>.
      </p>
<p>
        The second solution is denoted either Y<sub>v</sub> &#160; or N<sub>v</sub> &#160;
and is known as either a Bessel
        Function of the second kind, or as a Neumann function:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel3.svg"></span>
      </p>
<p>
        This function is implemented in this library as <a class="link" href="bessel_first.html" title="Bessel Functions of the First and Second Kinds">cyl_neumann</a>.
      </p>
<p>
        The Bessel functions satisfy the recurrence relations:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel4.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel5.svg"></span>
      </p>
<p>
        Have the derivatives:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel6.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel7.svg"></span>
      </p>
<p>
        Have the Wronskian relation:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel8.svg"></span>
      </p>
<p>
        and the reflection formulae:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel9.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/bessel10.svg"></span>
      </p>
<h5>
<a name="math_toolkit.bessel.bessel_over.h1"></a>
        <span class="phrase"><a name="math_toolkit.bessel.bessel_over.modified_bessel_functions"></a></span><a class="link" href="bessel_over.html#math_toolkit.bessel.bessel_over.modified_bessel_functions">Modified
        Bessel Functions</a>
      </h5>
<p>
        The Bessel functions are valid for complex argument <span class="emphasis"><em>x</em></span>,
        and an important special case is the situation where <span class="emphasis"><em>x</em></span>
        is purely imaginary: giving a real valued result. In this case the functions
        are the two linearly independent solutions to the modified Bessel equation:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel1.svg"></span>
      </p>
<p>
        The solutions are known as the modified Bessel functions of the first and
        second kind (or occasionally as the hyperbolic Bessel functions of the first
        and second kind). They are denoted I<sub>v</sub> &#160; and K<sub>v</sub> &#160;
respectively:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel2.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel3.svg"></span>
      </p>
<p>
        These functions are implemented in this library as <a class="link" href="mbessel.html" title="Modified Bessel Functions of the First and Second Kinds">cyl_bessel_i</a>
        and <a class="link" href="mbessel.html" title="Modified Bessel Functions of the First and Second Kinds">cyl_bessel_k</a> respectively.
      </p>
<p>
        The modified Bessel functions satisfy the recurrence relations:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel4.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel5.svg"></span>
      </p>
<p>
        Have the derivatives:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel6.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel7.svg"></span>
      </p>
<p>
        Have the Wronskian relation:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel8.svg"></span>
      </p>
<p>
        and the reflection formulae:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel9.svg"></span>
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/mbessel10.svg"></span>
      </p>
<h5>
<a name="math_toolkit.bessel.bessel_over.h2"></a>
        <span class="phrase"><a name="math_toolkit.bessel.bessel_over.spherical_bessel_functions"></a></span><a class="link" href="bessel_over.html#math_toolkit.bessel.bessel_over.spherical_bessel_functions">Spherical
        Bessel Functions</a>
      </h5>
<p>
        When solving the Helmholtz equation in spherical coordinates by separation
        of variables, the radial equation has the form:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/sbessel1.svg"></span>
      </p>
<p>
        The two linearly independent solutions to this equation are called the spherical
        Bessel functions j<sub>n</sub> &#160; and y<sub>n</sub> &#160;, and are related to the ordinary Bessel functions
        J<sub>n</sub> &#160; and Y<sub>n</sub> &#160; by:
      </p>
<p>
        <span class="inlinemediaobject"><img src="../../../equations/sbessel2.svg"></span>
      </p>
<p>
        The spherical Bessel function of the second kind y<sub>n</sub> &#160;
is also known as the spherical
        Neumann function n<sub>n</sub>.
      </p>
<p>
        These functions are implemented in this library as <a class="link" href="sph_bessel.html" title="Spherical Bessel Functions of the First and Second Kinds">sph_bessel</a>
        and <a class="link" href="sph_bessel.html" title="Spherical Bessel Functions of the First and Second Kinds">sph_neumann</a>.
      </p>
</div>
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      Agrawal, Anton Bikineev, Paul A. Bristow, Marco Guazzone, Christopher Kormanyos,
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      R&#229;de, Gautam Sewani, Benjamin Sobotta, Nicholas Thompson, Thijs van den Berg,
      Daryle Walker and Xiaogang Zhang<p>
        Distributed under the Boost Software License, Version 1.0. (See accompanying
        file LICENSE_1_0.txt or copy at <a href="http://www.boost.org/LICENSE_1_0.txt" target="_top">http://www.boost.org/LICENSE_1_0.txt</a>)
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